优选向上延拓技术在鞍山—本溪示范区航磁应用

doi:10.11720/wtyht.2017.5.24

摘要
参考文献
相关文章
Metrics

全文: PDF(707 KB) HTML
输出: BibTeX | EndNote (RIS)

摘要

优选向上延拓技术可以保持深源低频信号基本不变的同时,使浅部高频信号衰减,能够较为准确地提取区域异常,进而分离出局部异常;避免了传统向上延拓浅源高频信号与深源低频信号同时衰减。笔者利用优选向上延拓技术处理鞍山—本溪示范区航磁资料,实现了深部区域异常的增强和分离,获得了较好的效果;并进一步对西鞍山铁矿床航磁异常进行三维反演,初步推断了西鞍山铁矿体空间形态和规模,为后期资料的成果解释提供了重要的参考依据。

	服务

	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章

Abstract：

The advantage of preferential upward continuation method lies in the fact that, when it is used for upward continuation, the low frequent signal is not attenuated excessively and it can retain as much information on geological features as possible, so it can accurately separate regional anomaly and local anomaly. However, in conventional methods both high and low frequent signals are attenuated simultaneously for upward continuation. The preferential upward continuation breaks up the restrictions of the conventional upward continuation. So the preferential upward continuation is a method that has the capability for self-adaptive qualitative enhancing and separating the aeromagnetic anomalies. In this paper, the aeromagnetic anomaly in Anshan-Benxi area was processed using the preferential upward continuation to realize the enhancement and separation of the anomaly in the deep source field, with a good effect obtained. Furthermore, the authors studied 3D inversion of typical Xianshan iron ore deposit and inferred the distribution of underground lithologic boundaries and the spatial morphology of the Xianshan iron ore deposit. The results provide an important reference for the qualitative interpretation of the aeromagnetic anomaly.

收稿日期: 2016-05-10 出版日期: 2017-10-20

P631

基金资助:

中国地质调查局“鞍山—本溪地区高分辨航空物探测量应用示范”项目(12120113098700); 国家高技术研究发展计划“863计划”项目(2011AA060501)

通讯作者: 王明(1981-),男,山东人,高级工程师,硕士研究生,主要从事航空物探方法技术研究。Email:wangmingS060880@yeah.net

作者简介: 张建兵(1964-),男,山西人,高级工程师,大学学历,主要从事电磁勘查工作。Email:776587682@qq.com

引用本文:

张建兵, 王明, 赵百民, 刘前坤. 优选向上延拓技术在鞍山—本溪示范区航磁应用[J]. 物探与化探, 2017, 41(5): 951-957.
ZHANG Jian-Bing, WANG Ming, ZHAO Bai-Min, LIU Qian-Kun. The application of preferential upward continuation to aeromagnetic survey in Anshan-Benxi area. Geophysical and Geochemical Exploration, 2017, 41(5): 951-957.

链接本文:

https://www.wutanyuhuatan.com/CN/10.11720/wtyht.2017.5.24 或 https://www.wutanyuhuatan.com/CN/Y2017/V41/I5/951

[1] Spector A,Grant F S.Statistical models for interpreting aeromagnetic data[J].Geophysics,1970,35(2):293-302.
[2] Archibald N,Gow P,Boschetti F.Multiscal edge analysis of potential field data[J].Exploration Geophysics,1999,30(2):38-44.
[3] Holden D J,Archibald N J,Boschetti F,et al.Infering geological structures using wavelet-based multiscale edge analysis and forward models[J].Exploration geophysics,2001, 31(4):67-71.
[4] Marlet G,Sailhac P,Moreau F,et al.Characterization of geological boundaries using 1-D wavelet transform on gravity data: Theory and application to the Himalayas[J].Geophysics,66(4):1116-1129.
[5] 侯重初.补偿圆滑滤波方法[J].石油物探,1981(2):22-29.
[6] 安玉林,管志宁.滤波高频干扰的正则化稳定因子[J].物探化探计算技术,1985,7(1):13-23.
[7] Pawlowski R S,Hansen R O.Gravity anomaly separation by Wiener filtering[J].Geophysics,1990, 55(5):539-548.
[8] Pawlowski R S.Green's equivalent-layer concept in gravity band-pass filter design[J].Geophysics,1994,55(5):69-76.
[9] Pawlowski R S.Preferential continuation for potential-field anomaly enhancement[J].Geophysics,1995,60(2):390-398.
[10] Zeng H,Xu D,Tan H.A model study for estimating optimum upward-continuation height for gravity separation with application to a Bouguer gravity anomaly over a mineral deposit, Jilin province,northeast China[J].Geophysics,2008, 72(4):145-150.
[11] Meng X H,Guo L H,Chen Z X,et al.A method for gravity anomaly separation based on preferential continuation and its application[J].Applied Geophysics,2009,6(3):217-225.
[12] 侯尊泽,杨文采.中国重力异常的小波变换与多尺度分析[J].地球物理学报,1997,40(1):85-95.
[13] Fedi M, Quarta T.Wavelet analysis for the regional-residual and local separation of potential field anomalies[J].Geophysical Prospecting,1998,46(5):507-525.
[14] Keating P,Pinet N.Use of non-linear filtering for the regional-residual separation of potential field data[J].Journal of Applied Geophysics,2011,73(4):315-322.
[15] Nikitin A A,Vasov O K,Belov A P,et al. Vozmozhnosti kompleksnoy geofizicheskoy interpretatsii na baze entropiynogo filtra[J].Izvestiya Akademii Nauk Turkmenskoy SSR.Seriya Fiziko-Tekhnicheskikh,Khimicheskikhi Geologicheskikh Nauk (in Russia),1984,2:79-82.
[16] 许德树,曾华霖.优选延拓技术及其在中国布格重力异常图处理上的应用[J].现代地质,2000,14(2): 215-222.
[17] 郭良辉,孟小红,石磊,等.优化滤波方法及其在中国大陆布格重力异常数据处理中的应用[J].地球物理学报,2012,55(12):4078-4088.
[18] Naidu P.Spectrum of the potential field due to randomly distributed sources[J]Geophysics,1968,33:337-345.
[19] 崔培龙.鞍山—本溪地区铁建造型铁矿成矿构造环境与成矿、找矿模式研究[D].长春:吉林大学,2014.

[1]	陈秀娟, 刘之的, 刘宇羲, 柴慧强, 王勇. 致密储层孔隙结构研究综述[J]. 物探与化探, 2022, 46(1): 22-31.
[2]	肖关华, 张伟, 陈恒春, 卓武, 王艳君, 任丽莹. 浅层地震技术在济南地下空间探测中的应用[J]. 物探与化探, 2022, 46(1): 96-103.
[3]	石磊, 管耀, 冯进, 高慧, 邱欣卫, 阙晓铭. 基于多级次流动单元的砂砾岩储层分类渗透率评价方法——以陆丰油田古近系文昌组W53油藏为例[J]. 物探与化探, 2022, 46(1): 78-86.
[4]	陈大磊, 王润生, 贺春艳, 王珣, 尹召凯, 于嘉宾. 综合地球物理探测在深部空间结构中的应用——以胶东金矿集区为例[J]. 物探与化探, 2022, 46(1): 70-77.
[5]	周能, 邓可晴, 庄文英. 基于线性放电法的多道脉冲幅度分析器设计[J]. 物探与化探, 2022, 46(1): 221-228.
[6]	吴燕民, 彭正辉, 元勇虎, 朱今祥, 刘闯, 葛薇, 凌国平. 一种基于差分接收的电磁感应阵列探头的设计与实现[J]. 物探与化探, 2022, 46(1): 214-220.
[7]	王猛, 刘媛媛, 王大勇, 董根旺, 田亮, 黄金辉, 林曼曼. 无人机航磁测量在荒漠戈壁地区的应用效果分析[J]. 物探与化探, 2022, 46(1): 206-213.
[8]	张化鹏, 钱卫, 刘瑾, 武立林, 宋泽卓. 基于伪随机信号的磁电法渗漏模型试验[J]. 物探与化探, 2022, 46(1): 198-205.
[9]	张建智, 胡富杭, 刘海啸, 邢国章. 煤矿老窑采空区地—井TEM响应特征[J]. 物探与化探, 2022, 46(1): 191-197.
[10]	张宇哲, 孟麟, 王智. 基于Gmsh的起伏地形下井—地直流电法正演模拟[J]. 物探与化探, 2022, 46(1): 182-190.
[11]	马德志, 王炜, 金明霞, 王海昆, 张明强. 海上地震勘探斜缆采集中鬼波产生机理及压制效果分析[J]. 物探与化探, 2022, 46(1): 175-181.
[12]	张洁. 基于拉伸率的3DVSP道集切除技术及应用[J]. 物探与化探, 2022, 46(1): 169-174.
[13]	丁骁, 莫思特, 李碧雄, 黄华. 混凝土内部裂缝对电磁波传输特性参数的影响[J]. 物探与化探, 2022, 46(1): 160-168.
[14]	崔瑞康, 孙建孟, 刘行军, 文晓峰. 低阻页岩电阻率主控因素研究[J]. 物探与化探, 2022, 46(1): 150-159.
[15]	陈亮, 付立恒, 蔡冻, 李凡, 李振宇, 鲁恺. 基于模拟退火法的磁共振测深多源谐波噪声压制方法[J]. 物探与化探, 2022, 46(1): 141-149.

Viewed

Full text

Abstract

Cited

Shared

Discussed